RU2300053C1 - Auxiliary burner device for plasma ignition and stabilization of burning of low reaction black dust fuel of main burners of heat apparatus - Google Patents

Abstract

FIELD: power engineering, possible use in steam boilers powered by energy coals of worsened quality.

SUBSTANCE: in auxiliary burner device, equipped with air plasmatron units, inlet section of internal channel for feeding air-dust mixture in place of installation of plasmatron units is made in form of narrowing portion, shaped like equilateral triangular prism with round angles, each one of two plasmatron units is installed on a side of prism and its longitudinal axis is oriented towards vertex of aforementioned equilateral triangle. Outlet section of internal channel of device with length of 1÷2 of its diameter is made in form of expanding cone with angle of inclination of generatrix to axis equal to 7÷9°. End part of expanding portion of internal channel with length of 0,2÷0,3 of length of aforementioned portion has crown-like shape with longitudinal equal through slits evenly distributed across the circle of end part, and walls of outlet part of external channel relatively to burner axis are shaped like narrowing cones. Device also contains cylindrical chamber with inside lining, coaxially adjacent to its end part, which chamber has internal diameter equal to outlet diameter of external cone of external burner channel.

EFFECT: increased reliability of operation due to prevented conditions for cinder creation and following burnout.

1 cl, 5 dwg

Description

The invention relates to the field of power engineering and can be used in steam boilers operating on power coal of deteriorated quality.

Direct burning of degraded energy coal is difficult due to their poor flammability. The use of fuel oil kindling and stabilization of the combustion of such coals is ineffective due to the scarcity of fuel oil and the difficulties in ensuring the required environmental performance of a thermal power plant. Recently, kindling burner devices working on the same fuel of deteriorated quality as the main burners of the boiler, but fired up with the help of air plasmatrons (using the air flow for swirling and transporting the plasma), have been developed. The use for thermochemical preparation of an electric arc plasma with a high energy concentration one to two orders of magnitude higher than the energy concentration in traditional firing devices, as well as the presence of chemically active centers in the plasma (atoms, free radicals, ions and an electron gas) contribute to an energy and kinetically more efficient, than in known fire methods, heating and thermochemical transformations of coal.

The auxiliary burner device closest in purpose and effect is known to ignite and stabilize the combustion of low-reaction pulverized-coal fuel of the main burners of a thermal unit, containing two cylindrical concentric channels separated by a refractory wall — an internal one for supplying a dust-air mixture using dust of the same fuel as in the main burners , and external for supplying secondary air, moreover, an ignition device is installed at the input section of the internal channel as disposed on the sidewall internal passageway at least one air plasma generator [1]. According to [1], each of the internal and external channels of the burner device is made with a diameter that does not vary along the entire length of the channel, calculated on the basis of the required values of the velocities of the respectively ignited dust-air stream and the secondary air stream for organizing the torch at the outlet of these channels. Moreover, as practice has shown, the known burner device [1] has a number of serious drawbacks. Due to the inability to ensure a sufficiently high speed of the dusty air mixture in the “cold” inlet section of the internal channel, coal dust is separated and precipitated therein. In the zone of introduction of air plasma heated to 3000-4000 ° С into the dust-air mixture flow, slag formations are formed, their gradual growth and distortion under the influence of the dust-air mixture blowing down leads to the destruction of the walls of the internal channel by a plasma jet, which are bent accordingly to the curvature of the indicated formations. Slagging of the outlet section of the inner channel also occurs, where the highest flame temperature develops. In addition, due to the lack of compensation for thermal expansion of the internal channel, made in the form of a single shell, it warps, especially at the exit section. Due to the sluggish process of mixing the dusty air mixture with secondary air, dust is separated in the boiler furnace.

One of the achieved results of the invention is to prevent dust separation in the internal channel in the installation area of the plasma torch and, accordingly, to eliminate the conditions of slagging of the wall of this area with its subsequent burning.

This result is ensured by the fact that in the auxiliary burner for igniting and stabilizing the combustion of low-reaction pulverized-coal fuel of the main burners of the thermal unit, which contains two cylindrical concentric channels separated by a refractory wall - internal for supplying the dust-air mixture using dust of the same fuel as in the main burners, and external for the supply of secondary air, and at the input section of the internal channel installed ignition device in the form data on the side wall of the inner channel of at least one air plasma torch, the inlet area at the installation site of the plasma torches is made in the form of a narrowing having the shape of an equilateral triangular prism with rounded corners, and the inner equilateral triangle of the cross section of the prism is inscribed with rounded corners in the circumference of the inner channel from the exit side into it a plasma-ignited dust-air mixture, the diameter of the inner channel at the inlet portion from the side of the dust-air mixture inlet to the constriction is selected and h the condition that the circle corresponding to this diameter is inscribed in the indicated equilateral triangle, and each plasmatron is mounted on the edge of the prism, and its longitudinal axis is oriented towards the apex of the specified equilateral triangle.

For a burner device with two plasmatrons, the indicated prism can be oriented in space from the condition of the horizontal location of the lower face, and the plasmatrons are mounted on the side faces.

Another achievable result of the invention is to prevent slagging of the outlet of the burner device. According to the invention, this is ensured by the fact that the output section of the internal channel of the device with a length of 1 ÷ 2 of its diameter is made in the form of an expanding cone with an angle of inclination of the generatrix to its axis equal to 7 ÷ 9 °.

The end part of the expanding section of the inner channel with a length of 0.2 ÷ 0.3 of the length of the specified section can have a crown shape with longitudinal equal through holes evenly distributed around the circumference of the end part, and the walls of the output part of the external channel relative to the axis of the burner - in the form of tapering cones, of which the outer one is truncated by the plane of the end face of the inner channel and forms an annular passage with its wall, and the other is adjacent to the wall of the inner channel immediately before the through slots. This makes it possible to improve the penetration of secondary air into the flow of a dusty air mixture ignited by plasmatrons and to prevent warping of the expanding section.

The burner device according to the invention may further comprise a cylindrical inner lined chamber adjacent to the end portion coaxially with an inner diameter equal to the output diameter of the outer cone of the outer channel of the burner. This prevents slagging of the combustion chamber screens at the inlet of the auxiliary burner device.

The internal channel of the burner device according to the invention can be made integral with at least two sections connected by lap with freedom of mutual axial movement, which prevents deformation of the specified channel as a result of temperature stresses.

These sections of the inner channel according to the invention can be made of KhN45Yu alloy with a chromium content of 21%, nickel 45%, aluminum 3%.

Figure 1 shows a burner device according to the invention in longitudinal section; figure 2 is a view along arrow a of figure 1; figure 3 is a transverse section bb In figure 1; figure 4 is a cross section along CC of figure 1; figure 5 - node D of figure 1.

The auxiliary burner device for igniting and stabilizing the combustion of low-reaction pulverized-coal fuel of the main burners of a thermal unit (steam boiler is not shown in the drawing) contains two cylindrical concentric channels separated by a refractory wall 1 — an internal channel 2 for supplying a dusty air mixture using dust of the same fuel as in the main burners, and an external channel 3 for supplying secondary air. An ignition device is installed in the input section of the inner channel in the form of at least one air plasma torch 4 located on the side wall of the inner channel 2 (Fig. 4). According to the invention, the inlet section 5 of the channel 3 at the installation site of the plasmatrons 4 is made in the form of a narrowing having the shape of an equilateral triangular prism with rounded corners (Fig. 4), the inner equilateral triangle cross section of the prism being inscribed by rounded corners into the circumference of the inner channel 2 from the exit side to ignited by the plasma of the dusty air mixture. The diameter of the inner channel 2 at the inlet side from the inlet of the dust-air mixture into the restriction is selected so that the circle corresponding to this diameter is inscribed in the indicated equilateral triangle of the cross section of the prism of the inlet section 5, and each plasmatron 4 is mounted on the edge of the prism, and its longitudinal axis is oriented towards the top of the specified equilateral triangle. It is preferable to perform a burner device according to the invention with two plasmatrons (figure 4). In this case, the prism of the input section 5 is oriented in space from the condition of the horizontal location of its lower face, and the plasmatrons 4 are mounted on the side faces of the indicated prism. The output section of the inner channel 2 with a length of 1 ÷ 2 of its diameter (Fig. 1) is made in the form of an expanding cone with an angle of inclination of the generatrix to its axis equal to α = 7 ÷ 9 °. The end part of the expanding section of the inner channel with a length of 0.2 ÷ 0.3 of the length of the indicated section has a crown shape with longitudinal equal through holes through the circumference of the end part equally uniformly 6, and the walls of the outlet part of the outer channel 3 relative to the axis of the burner have the form of tapering cones 3.1, 3.2 of which the outer cone 3.2 is truncated by the plane of the end face of the inner channel 2 and forms an annular passage 3.3 with its wall, and the other cone 3.1 is adjacent to the wall of the inner channel 2 immediately before slots 6. The burner device according to the invention further comprises a cylindrical inner lined chamber 7 (Fig. 1) adjoining coaxially with its end part and having an inner diameter equal to the output diameter of the outer cone 3.2 of the outer channel of the burner. The inner channel 2 of the burner device according to the invention is made integral (Fig. 1, 5) with at least two sections 2.1, 2.2 (Fig. 5), which are overlapped with freedom of mutual axial movement. Moreover, sections 2.1, 2.2 are made of KhN45Y alloy with a chromium content of 21%, nickel 45%, and aluminum 3%.

The auxiliary burner device according to the invention operates as follows. Part of the solid pulverized fuel to be burned in the main burners (not shown) of the heat unit (steam boiler) is sent to the auxiliary burner device according to the invention for igniting this fuel with air plasmatrons 4. In this case, the fuel is supplied in the form of an air-dust mixture to the auxiliary burner device through the input section 5 of the inner channel 2, made in cross section in the form of a triangular prism with rounded corners. Two plasma torches 4 located on the lateral faces of this prism due to the high temperature of the air-plasma cord ignite the fuel with a lack of air, compensated by the secondary air leaving the external channel 3 when the burning dust-air mixture exits into the main combustion chamber.

The implementation of the inlet section 5 with a narrowing in the form of a triangular prism ensures the absence of stagnant sinuses at the entrance of the plasma-air cord into the flow of a flammable air-fuel mixture, which, in combination with an increase in the speed of this flow, eliminates the formation of slag growths, which damage the walls of the inner channel 2.

The implementation of the output section of the inner channel 2 in the form of an expanding cone with a crown-shaped end section ensures the effective penetration of secondary air into the flow of the burning air-fuel mixture and prevents slagging of this section. A cylindrical lined inside chamber adjacent to the end part of the burner prevents slagging of the cooling screens of the main combustion chamber.

Industrial tests of a prototype auxiliary burner device according to the invention at one of the thermal power plants have confirmed the reliability and efficiency of its operation.

Information sources

1. Low temperature plasma. Volume 16. Plasma oil-free kindling of boilers and stabilization of the combustion of a pulverized coal torch. Novosibirsk: Nauka, 1995, p.21, 22, Fig. 1.6.

Claims (9)

1. An auxiliary burner device for igniting and stabilizing the combustion of low-reaction pulverized-coal fuel of the main burners of a thermal unit, containing two cylindrical concentric channels separated by a refractory wall - internal for supplying a dust-air mixture using dust of the same fuel as in the main burners, and external for supplying a secondary air, and at the input section of the inner channel, an ignition device is installed in the form located on the side wall of the inner channel at least one air plasma torch, characterized in that the entrance section at the installation site of the plasma torches is made in the form of a constriction having the shape of an equilateral triangular prism with rounded corners, and the inner equilateral triangle of the cross section of the prism is inscribed with rounded corners into the circumference of the inner channel from the exit side to it the plasma of the dust-air mixture, the diameter of the inner channel at the inlet portion from the inlet side of the dust-air mixture into the constriction is selected from the condition that stvuyuschaya this diameter circle was inscribed in said equilateral triangle, and each plasma torch is mounted on the side of the prism and its longitudinal axis is oriented toward the top of said equilateral triangle. 2. The burner device according to claim 1 with two plasmatrons, characterized in that said prism is oriented in space from the condition of horizontal arrangement of the lower face, and the plasmatrons are mounted on the side faces. 3. The burner device according to claim 1 or 2, characterized in that the output section of the internal channel with a length of 1 ÷ 2 of its diameter is made in the form of an expanding cone with an angle of inclination of the generatrix to its axis equal to 7 ÷ 9 °. 4. The burner device according to claim 3, characterized in that the end part of the expanding section of the inner channel with a length of 0.2 ÷ 0.3 of the length of the specified section has a crown shape with longitudinal equal to the end-to-end uniformly distributed through the circumference of the end part, and the walls of the output part of the outer the channels relative to the axis of the burner are in the form of tapering cones, of which the outer one is truncated by the plane of the end face of the inner channel and forms an annular passage with its wall, and the other is adjacent to the wall of the inner channel directly in front of the through slots. 5. The burner device according to claim 4, characterized in that it further comprises a cylindrical inner lined chamber, adjacent coaxially to its end part, with an inner diameter equal to the output diameter of the outer cone of the outer channel of the burner device. 6. The burner device according to claim 1 or 2, characterized in that the inner channel is made integral with at least two sections connected by lap with freedom of mutual axial movement. 7. The burner device according to claim 6, characterized in that said sections are made of KhN45Y alloy with a chromium content of 21%, nickel 45%, and aluminum 3%. 8. The burner device according to claim 7, characterized in that the end part of the expanding section of the inner channel with a length of 0.2-0.3 of the length of the specified section has a crown shape with longitudinal equal through holes, uniformly distributed uniformly around the circumference of the end part, and the walls of the output part of the outer the channels relative to the axis of the burner are in the form of tapering cones, of which the outer one is truncated by the plane of the end face of the inner channel and forms an annular passage with its wall, and the other is adjacent to the wall of the inner its channel immediately before the through slits. 9. The burner device according to claim 8, characterized in that it further comprises a cylindrical inner lined chamber adjacent to the end portion coaxially with an inner diameter equal to the output diameter of the outer cone of the outer channel of the burner device.

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